Simulation of complex electric circuits with superconducting elements

## Abstract In this paper, hybrid circuits with lumped elements, including a capacitor, inductor, and diode, are analyzed with the finite‐difference time‐domain (FDTD) method, and alternative algorithms for FDTD simulations of those elements are proposed, respectively. An integral formulation for t

Photoconductive circuit elements (PCEs) are suitable for switching applications: they can be turned on and off rapidly, they can conduct a large current in the 'on' state when applying a laser or other optical excitation containing high energy photons exceeding the silicon band gap energy, they have

A method for analysing the electrical effect of a set of conducting strips is presented. This method is applied to modelling the electrical behaviour of conducting tracks on a printed circuit board (PCB). Unlike most other published work, this analysis is not restricted to the case where the tracks

## Abstract A three‐dimensional implementation of the lumped‐element by Crank‐Nicolson finite‐difference time‐domain (CN‐FDTD) algorithm has been presented in this article. Several examples of planar microwave circuits with lumped resistor, capacitor, and/or inductor are simulated and compared with